Chemical Engineering (CH E)

This is an archived copy of the 2021-2022 catalog. To access the most recent version of the catalog, please visit http://catalog.iastate.edu.

View PDF

Any experimental courses offered by CH E can be found at: registrar.iastate.edu/faculty-staff/courses/explistings/

Expand all courses

Courses

Courses primarily for undergraduates:

Cr. R. F.

Prereq: Enrollment in Chemical Engineering Learning Team
(1-0) Curriculum in career planning and academic course support for Freshmen learning team.

(2-2) Cr. 3. F.S.

Prereq: MATH 143 or satisfactory scores on mathematics placement examinations; credit or enrollment in MATH 165
Formulation and solution of engineering problems. Significant figures. Use of SI units. Graphing and curve-fitting. Flowcharting. Introduction to material balances, engineering economics, and design. Use of spreadsheet programs to solve and present engineering problems. Solution of engineering problems using computer programming languages. Chemical Engineering examples. Only one of ENGR 160, A B E 160, AER E 160, CH E 160, C E 160, CPR E 160, E E 185, I E 148, M E 160 and S E 185 may count towards graduation.

(1-0) Cr. 1. F.


Professionalism in the context of the engineering/technical workplace. Introduction to chemical engineering career opportunities. Process and workplace safety. Development and demonstration of key workplace competencies: teamwork, professionalism and ethical responsibility, ability to engage in life-long learning, and knowledge of contemporary issues. Resumes; professional portfolios; preparation for internship experiences. Restricted to CHE majors.

Cr. R.

Prereq: Enrollment in Chemical Engineering Learning Team
Curriculum and career planning, academic course support for learning community.

Cr. R. F.S.

Prereq: CHEM 178, MATH 166; credit or enrollment in CH E 160
Assessment of proficiency in general chemistry, calculus (including infinite series and applications of derivatives and integrals), and material balances, and an ability to use the principles of science and mathematics to identify, formulate, and solve engineering problems. Offered on a satisfactory-fail basis only.

(3-0) Cr. 3. F.S.

Prereq: CHEM 178, MATH 166, CH E 160
Introduction to chemical processes. Physical behavior of gases, liquids, and solids. Application of material and energy balances to chemical engineering equipment and processes.

(Cross-listed with B M E). (3-0) Cr. 3. S.

Prereq: BIOL 212, ENGR 160 or equiv, MATH 166, CHEM 167 or CHEM 177, PHYS 232
Engineering analysis of basic biology and engineering problems associated with living systems and health care delivery. The course will illustrate biomedical engineering applications in such areas as: biotechnology, biomechanics, biomaterials and tissue engineering, and biosignal and image processing, and will introduce the basic life sciences and engineering concepts associated with these topics.

(3-0) Cr. 3. F.S.

Prereq: CH E 160, CH E 205, CH E 210, MATH 265
Numerical methods for solving systems of linear and nonlinear equations, ordinary differential equations, numerical differentiation and integration, and nonlinear regression using chemical engineering examples.

(0-4) Cr. 2. F.S.

Prereq: CH E 357, CH E 381; credit or enrollment in ENGL 314 or ENGL 309 or ENGL 312 or JL MC 347
Experiments covering fundamental material and energy balances, momentum and energy transport operations, and thermodynamics. Computer applications.

(3-0) Cr. 3. F.S.

Prereq: CH E 205, CH E 210, PHYS 221; credit or enrollment in MATH 267
Momentum and mechanical energy balances. Incompressible and compressible fluid flow. Applications to fluid drag, piping system design, filtration, packed beds and settling.

(3-0) Cr. 3. F.S.

Prereq: CH E 356
Conduction and diffusion, convective heat and mass transfer, boiling and condensation, radiation, and design of heat exchange equipment. Introduction to diffusion.

(3-0) Cr. 3. F.S.

Prereq: CH E 310, CH E 357, CH E 381
Diffusion and mass transfer in fluids. Analysis and design of continuous contacting and multistage separation processes. Binary and multicomponent distillation, absorption, extraction, evaporation, membrane processes, and simultaneous heat and mass transfer.

(3-0) Cr. 3. F.S.

Prereq: CH E 202, MATH 267, PHYS 232, CHEM 325; credit or enrollment in CH E 310, PHYS 232L
Application of thermodynamic principles to chemical engineering problems. Thermodynamic properties of fluids, phase equilibria, and chemical reaction equilibria.

(3-0) Cr. 3. F.S.

Prereq: CH E 310, CH E 381; credit or enrollment in CH E 357
Kinetics of chemical reactions. Design of homogeneous and heterogeneous chemical reactors.

(3-0) Cr. 3. S.

Prereq: CH E 357, CH E 381; credit or enrollment in ENGL 314 or ENGL 309 or ENGL 312 or JL MC 347
Offered on a satisfactory-fail basis only. Credit for graduation allowable only upon completion of Ch E 392.
Meets International Perspectives Requirement.

Cr. 4. SS.

Prereq: CH E 358, CH E 382, CH E 391
Study of chemical engineering including laboratories and lectures at collaborating international universities. Comparative study of U.S. and international manufacturing facilities. Expenses required.
Meets International Perspectives Requirement.

Cr. R. Repeatable. SS.

Prereq: Permission of department and Engineering Career Services
Professional work period of at least 10 weeks during the summer. Students must register for this course prior to commencing work. Offered on a satisfactory-fail basis only.

Cr. R. Repeatable. F.S.

Prereq: Permission of department and Engineering Career Services
Professional work period. One semester per academic or calendar year. Students must register for this course before commencing work. Offered on a satisfactory-fail basis only.

(Dual-listed with CH E 506). (3-0) Cr. 3.

Prereq: CHE 357, CH E 381
Examines the mechanisms and rates of chemical transport across air, water, and soil interfaces. Applications of transport and thermodynamic fundamentals to movement of chemicals in the environment.

(Dual-listed with CH E 508). (3-0) Cr. 3.

Prereq: CH E 381
Examines the factors underlying interfacial phenomena, with an emphasis on the thermodynamics of surfaces, structural aspects, and electrical phenomena. Application areas include emulsification, foaming, detergency, sedimentation, fluidization, nucleation, wetting, adhesion, flotation, and electrophoresis.

(Dual-listed with CH E 510). (3-0) Cr. 3. F.

Prereq: CH E 357, CH E 381, CH E 382
Electrochemical engineering principles in thermodynamics, electrode kinetics, charge and mass transport; modeling and simulation; electrocatalysis; electrochemical reactions; applications of electrochemical engineering in fuel cells, batteries and electrolyzers.

(Dual-listed with CH E 515). (3-0) Cr. 3.

Prereq: CH E 357, CHEM 331; BBMB 301 or BBMB 303 or BBMB 404
Application of basic chemical engineering principles in biochemical and biological process industries such as enzyme technology and fermentation.

(3-0) Cr. 3. F.S.

Prereq: CH E 357, CH E 381
Application of transport phenomena, thermodynamics, and chemical kinetics to the study of safety, health, and loss prevention. Government regulations, industrial hygiene, relief sizing, runaway reactions, toxic release, and dispersion models will be used. Fires, explosions, risk assessment, hazard identification, case studies, accident investigations, and design considerations will be studied.

(3-0) Cr. 3. F.S.

Prereq: CH E 358, CH E 382, MATH 267
Control of industrial chemical processes. Device applications and limitations. Dynamics of chemical process components and process control systems.

(0-4) Cr. 2. F.S.

Prereq: CH E 325, CH E 358, CH E 382
Experiments in heat and mass transfer, staged operations, chemical reactor performance, unit processes. Computer applications. Only one of Ch E 426 or 427 may count toward graduation.

(0-4) Cr. 2. S.

Prereq: CH E 325, CH E 358, CH E 382; BBMB 301 or BBMB 303 or BBMB 404
Experiments on biological applications in chemical engineering. Only one of CH E 426 or CH E 427 may count toward graduation.

(2-4) Cr. 4. F.S.

Prereq: CH E 358, CH E 382
Synthesis of chemical engineering processes, equipment and plants. Cost estimation and feasibility analysis.

(Dual-listed with CH E 540). (Cross-listed with B M E). (3-0) Cr. 3.

Prereq: CH E 210 or CH E 220, MATH 266 or MATH 267, PHYS 232
Applications of material and energy balances, transport phenomena, chemical reaction engineering, and thermodynamics to problems in biomedical engineering and applied physiology; survey of biomedical engineering; biomaterials; biomedical imaging.

(Dual-listed with CH E 547). (3-0) Cr. 3.

Prereq: CHEM 331; CH E 382 or MAT E 351
Chemistry of polymers, addition and condensation polymerization. Physical and mechanical properties, polymer rheology, production methods. Applications of polymers in the chemical industry.

(0-18) Cr. 1-6. Repeatable, maximum of 6 credits.

Prereq: Permission of department
Investigation of topics of special interest to student and faculty with a final written report or presentation. Election of course and topic must be approved in advance by Department with completion of Study Proposal. No more than 6 credits of ChE 490 may be counted towards technical electives.

(0-18) Cr. 1-6. Repeatable, maximum of 6 credits.

Prereq: Permission of Department
Investigation of topics of special interest to student and faculty with a final written report or presentation. Election of course and topic must be approved in advance by Department with completion of Study Proposal. No more than 6 credits of ChE 490 may be counted towards technical electives.

Courses primarily for graduate students, open to qualified undergraduates:

(Dual-listed with CH E 406). (3-0) Cr. 3.

Prereq: CHE 357, CH E 381
Examines the mechanisms and rates of chemical transport across air, water, and soil interfaces. Applications of transport and thermodynamic fundamentals to movement of chemicals in the environment.

(Dual-listed with CH E 408). (3-0) Cr. 3.

Prereq: CH E 381
Examines the factors underlying interfacial phenomena, with an emphasis on the thermodynamics of surfaces, structural aspects, and electrical phenomena. Application areas include emulsification, foaming, detergency, sedimentation, fluidization, nucleation, wetting, adhesion, flotation, and electrophoresis.

(Dual-listed with CH E 410). (3-0) Cr. 3. F.

Prereq: CH E 357, CH E 381, CH E 382
Electrochemical engineering principles in thermodynamics, electrode kinetics, charge and mass transport; modeling and simulation; electrocatalysis; electrochemical reactions; applications of electrochemical engineering in fuel cells, batteries and electrolyzers.

(Dual-listed with CH E 415). (3-0) Cr. 3.

Prereq: CH E 357, CHEM 331; BBMB 301 or BBMB 303 or BBMB 404
Application of basic chemical engineering principles in biochemical and biological process industries such as enzyme technology and fermentation.

(Dual-listed with CH E 440). (3-0) Cr. 3.

Prereq: CH E 210 or CH E 220, MATH 266 or MATH 267, PHYS 232
Applications of material and energy balances, transport phenomena, chemical reaction engineering, and thermodynamics to problems in biomedical engineering and applied physiology; survey of biomedical engineering; biomaterials; biomedical imaging.

(3-0) Cr. 3.

Prereq: CHEM 331 or a polymers class
Polymeric biomaterials, overview of biomaterial requirements, different classes of polymers used as biomaterials, specific bioapplications of polymers.

(3-0) Cr. 3. F.

Prereq: CH E 358, MATH 267
Analysis of equipment and processes by analytic and/or numerical solution of descriptive differential equations. Operational and series techniques, boundary value problems, numerical interpolation and approximation, integration techniques.

(Dual-listed with CH E 447). (3-0) Cr. 3.

Prereq: CHEM 331; CH E 382 or MAT E 351
Chemistry of polymers, addition and condensation polymerization. Physical and mechanical properties, polymer rheology, production methods. Applications of polymers in the chemical industry.

(4-0) Cr. 4. F.

Prereq: CH E 357, CH E 381, MATH 267, credit or enrollment in CH E 545
Conservation equations governing diffusive and convective transport of momentum, thermal energy and chemical species. Transport during laminar flow in conduits, boundary layer flow, creeping flow. Heat and mass transport coupled with chemical reactions and phase change. Scaling and approximation methods for mathematical solution of transport models. Diffusive fluxes; conservation equations for heat and mass transfer; scaling and approximation techniques; fundamentals of fluid mechanics; unidirectional flow; creeping flow; laminar flow at high Reynolds number; forced-convection heat and mass transfer in confined and unconfined laminar flows.

(3-0) Cr. 3.

Prereq: CH E 357 or advanced standing in a science major
Principles and techniques for separation and recovery of biologically-produced molecules, especially proteins. Relationship between the chemistry of biological molecules and efficient separation and preservation of biological activity. Includes centrifugation and filtration, membrane processing, extraction, precipitation and crystallization, chromatography, and electrophoresis.

(Cross-listed with AER E). (3-0) Cr. 3.

Prereq: AER E 541 or M E 538
Qualitative features of turbulence. Statistical representation of turbulent velocity fields: averages, moments, correlations, length and time scales and the energy cascade. Averaged equations of motion, closure requirements, Reynolds averaged models. Homogeneous shear flows, free shear flows, boundary layers. Numerical simulation of turbulence: DNS, LES, DES.

(3-0) Cr. 3. F.

Prereq: CH E 381
Application of thermodynamic principles to chemical engineering problems. Thermodynamic properties of non-ideal fluids and solutions; phase and chemical-reaction equilibria/stability.

(3-0) Cr. 3. S.

Prereq: CH E 382
Analysis of complex reactions and kinetics. Fixed bed, fluidized bed, and other industrial reactors. Analysis and design of non-ideal flow mixing, and residence times. Heterogeneous reactors.

Cr. 2-6. Repeatable.


Investigation of an approved topic on an individual basis.

Cr. 2-3. Repeatable.


Cr. arr. Repeatable.


Courses for graduate students:

Cr. R. Repeatable. F.S.


Offered on a satisfactory-fail basis only.

(3-0) Cr. 3.

Prereq: CH E 382, CHEM 331
Principles of metabolic engineering. Emphasis on emerging examples in biorenewables and plant metabolic engineering. Overview of biochemical pathways, determination of flux distributions by stoichiometric and labeling techniques; kinetics and thermodynamics of metabolic networks; metabolic control analysis; genetic engineering for overexpression, deregulation, or inhibition of enzymes; directed evolution; application of bioinformatics, genomics, and proteomics.

(Cross-listed with M E). (3-0) Cr. 3. Alt. S., offered even-numbered years.

Prereq: M E 538
Single particle, mutliparticle and two-phase fluid flow phenomena (gas-solid, liquid-solid and gas-liquid mixtures); particle interactions, transport phenomena, wall effects; bubbles, equations of multiphase flow. Dense phase (fluidized and packed beds) and ducted flows; momentum, heat and mass transfer. Computer solutions.

(3-0) Cr. 3.

Prereq: CH E 545
Principles of statistical physics. General features of molecular simulations including Monte Carlo (MC) methods, molecular mechanics (MM), and molecular dynamics (MD). Overview of intermolecular and interatomic potentials. Evaluation of phase equilibria, free energies, and surface/interfacial properties. Coarse-grained methods.

Cr. 2-6. Repeatable.


Investigation of an approved topic on an individual basis. Election of course and topic must be approved in advance by Program of Study Committee.

Cr. arr. Repeatable.


Cr. R. Repeatable. F.S.SS.

Prereq: Permission of major professor, graduate classification
One semester and one summer maximum per academic year professional work period.

(1-0) Cr. 1. F.S.SS.

Prereq: Graduate student classification and permission of instructor
Offered on a satisfactory-fail basis only.

(1-0) Cr. 1. F.

Prereq: Graduate student classification and permission of instructor
Discussions intended to foster the development of graduate students as teaching assistants and future chemical engineering instructors. Topics include classroom and laboratory instruction, grading, and developing a teaching philosophy. Offered on a satisfactory-fail basis only.

(1-0) Cr. 1. Repeatable. F.S.SS.

Prereq: CH E 698A
Participation in the instruction of a CH E course under the mentorship of a CBE faculty member. Typical activities may include lecture preparation and delivery, laboratory instruction, design of assessments, problem-solving sessions, office hours, and grading. Offered on a satisfactory-fail basis only.

Cr. arr. Repeatable.


Advanced topic for thesis/dissertation.